/* * Copyright (C) 2006 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.android.internal.telephony.gsm; import android.os.AsyncResult; import android.os.Handler; import android.os.Message; import android.os.Registrant; import android.os.RegistrantList; import android.os.SystemProperties; import android.telephony.DisconnectCause; import android.telephony.PhoneNumberUtils; import android.telephony.ServiceState; import android.telephony.TelephonyManager; import android.telephony.gsm.GsmCellLocation; import android.util.EventLog; import android.telephony.Rlog; import com.android.internal.telephony.Call; import com.android.internal.telephony.CallStateException; import com.android.internal.telephony.CallTracker; import com.android.internal.telephony.CommandsInterface; import com.android.internal.telephony.Connection; import com.android.internal.telephony.DriverCall; import com.android.internal.telephony.EventLogTags; import com.android.internal.telephony.Phone; import com.android.internal.telephony.PhoneBase; import com.android.internal.telephony.PhoneConstants; import com.android.internal.telephony.TelephonyProperties; import com.android.internal.telephony.UUSInfo; import com.android.internal.telephony.gsm.CallFailCause; import com.android.internal.telephony.gsm.GSMPhone; import com.android.internal.telephony.gsm.GsmCall; import com.android.internal.telephony.gsm.GsmConnection; import java.io.FileDescriptor; import java.io.PrintWriter; import java.util.List; import java.util.ArrayList; /** * {@hide} */ public final class GsmCallTracker extends CallTracker { static final String LOG_TAG = "GsmCallTracker"; private static final boolean REPEAT_POLLING = false; private static final boolean DBG_POLL = false; //***** Constants static final int MAX_CONNECTIONS = 7; // only 7 connections allowed in GSM static final int MAX_CONNECTIONS_PER_CALL = 5; // only 5 connections allowed per call //***** Instance Variables GsmConnection mConnections[] = new GsmConnection[MAX_CONNECTIONS]; RegistrantList mVoiceCallEndedRegistrants = new RegistrantList(); RegistrantList mVoiceCallStartedRegistrants = new RegistrantList(); // connections dropped during last poll ArrayList mDroppedDuringPoll = new ArrayList(MAX_CONNECTIONS); GsmCall mRingingCall = new GsmCall(this); // A call that is ringing or (call) waiting GsmCall mForegroundCall = new GsmCall(this); GsmCall mBackgroundCall = new GsmCall(this); GsmConnection mPendingMO; boolean mHangupPendingMO; GSMPhone mPhone; boolean mDesiredMute = false; // false = mute off PhoneConstants.State mState = PhoneConstants.State.IDLE; Call.SrvccState mSrvccState = Call.SrvccState.NONE; //***** Events //***** Constructors GsmCallTracker (GSMPhone phone) { this.mPhone = phone; mCi = phone.mCi; mCi.registerForCallStateChanged(this, EVENT_CALL_STATE_CHANGE, null); mCi.registerForOn(this, EVENT_RADIO_AVAILABLE, null); mCi.registerForNotAvailable(this, EVENT_RADIO_NOT_AVAILABLE, null); } public void dispose() { Rlog.d(LOG_TAG, "GsmCallTracker dispose"); //Unregister for all events mCi.unregisterForCallStateChanged(this); mCi.unregisterForOn(this); mCi.unregisterForNotAvailable(this); clearDisconnected(); } @Override protected void finalize() { Rlog.d(LOG_TAG, "GsmCallTracker finalized"); } //***** Instance Methods //***** Public Methods @Override public void registerForVoiceCallStarted(Handler h, int what, Object obj) { Registrant r = new Registrant(h, what, obj); mVoiceCallStartedRegistrants.add(r); } @Override public void unregisterForVoiceCallStarted(Handler h) { mVoiceCallStartedRegistrants.remove(h); } @Override public void registerForVoiceCallEnded(Handler h, int what, Object obj) { Registrant r = new Registrant(h, what, obj); mVoiceCallEndedRegistrants.add(r); } @Override public void unregisterForVoiceCallEnded(Handler h) { mVoiceCallEndedRegistrants.remove(h); } private void fakeHoldForegroundBeforeDial() { List connCopy; // We need to make a copy here, since fakeHoldBeforeDial() // modifies the lists, and we don't want to reverse the order connCopy = (List) mForegroundCall.mConnections.clone(); for (int i = 0, s = connCopy.size() ; i < s ; i++) { GsmConnection conn = (GsmConnection)connCopy.get(i); conn.fakeHoldBeforeDial(); } } /** * clirMode is one of the CLIR_ constants */ synchronized Connection dial (String dialString, int clirMode, UUSInfo uusInfo) throws CallStateException { // note that this triggers call state changed notif clearDisconnected(); if (!canDial()) { throw new CallStateException("cannot dial in current state"); } String origNumber = dialString; dialString = convertNumberIfNecessary(mPhone, dialString); // The new call must be assigned to the foreground call. // That call must be idle, so place anything that's // there on hold if (mForegroundCall.getState() == GsmCall.State.ACTIVE) { // this will probably be done by the radio anyway // but the dial might fail before this happens // and we need to make sure the foreground call is clear // for the newly dialed connection switchWaitingOrHoldingAndActive(); // Fake local state so that // a) foregroundCall is empty for the newly dialed connection // b) hasNonHangupStateChanged remains false in the // next poll, so that we don't clear a failed dialing call fakeHoldForegroundBeforeDial(); } if (mForegroundCall.getState() != GsmCall.State.IDLE) { //we should have failed in !canDial() above before we get here throw new CallStateException("cannot dial in current state"); } mPendingMO = new GsmConnection(mPhone.getContext(), checkForTestEmergencyNumber(dialString), this, mForegroundCall); mHangupPendingMO = false; if ( mPendingMO.getAddress() == null || mPendingMO.getAddress().length() == 0 || mPendingMO.getAddress().indexOf(PhoneNumberUtils.WILD) >= 0 ) { // Phone number is invalid mPendingMO.mCause = DisconnectCause.INVALID_NUMBER; // handlePollCalls() will notice this call not present // and will mark it as dropped. pollCallsWhenSafe(); } else { // Always unmute when initiating a new call setMute(false); mCi.dial(mPendingMO.getAddress(), clirMode, uusInfo, obtainCompleteMessage()); } if (mNumberConverted) { mPendingMO.setConverted(origNumber); mNumberConverted = false; } updatePhoneState(); mPhone.notifyPreciseCallStateChanged(); return mPendingMO; } Connection dial(String dialString) throws CallStateException { return dial(dialString, CommandsInterface.CLIR_DEFAULT, null); } Connection dial(String dialString, UUSInfo uusInfo) throws CallStateException { return dial(dialString, CommandsInterface.CLIR_DEFAULT, uusInfo); } Connection dial(String dialString, int clirMode) throws CallStateException { return dial(dialString, clirMode, null); } void acceptCall () throws CallStateException { // FIXME if SWITCH fails, should retry with ANSWER // in case the active/holding call disappeared and this // is no longer call waiting if (mRingingCall.getState() == GsmCall.State.INCOMING) { Rlog.i("phone", "acceptCall: incoming..."); // Always unmute when answering a new call setMute(false); mCi.acceptCall(obtainCompleteMessage()); } else if (mRingingCall.getState() == GsmCall.State.WAITING) { setMute(false); switchWaitingOrHoldingAndActive(); } else { throw new CallStateException("phone not ringing"); } } void rejectCall () throws CallStateException { // AT+CHLD=0 means "release held or UDUB" // so if the phone isn't ringing, this could hang up held if (mRingingCall.getState().isRinging()) { mCi.rejectCall(obtainCompleteMessage()); } else { throw new CallStateException("phone not ringing"); } } void switchWaitingOrHoldingAndActive() throws CallStateException { // Should we bother with this check? if (mRingingCall.getState() == GsmCall.State.INCOMING) { throw new CallStateException("cannot be in the incoming state"); } else { mCi.switchWaitingOrHoldingAndActive( obtainCompleteMessage(EVENT_SWITCH_RESULT)); } } void conference() { mCi.conference(obtainCompleteMessage(EVENT_CONFERENCE_RESULT)); } void explicitCallTransfer() { mCi.explicitCallTransfer(obtainCompleteMessage(EVENT_ECT_RESULT)); } void clearDisconnected() { internalClearDisconnected(); updatePhoneState(); mPhone.notifyPreciseCallStateChanged(); } boolean canConference() { return mForegroundCall.getState() == GsmCall.State.ACTIVE && mBackgroundCall.getState() == GsmCall.State.HOLDING && !mBackgroundCall.isFull() && !mForegroundCall.isFull(); } boolean canDial() { boolean ret; int serviceState = mPhone.getServiceState().getState(); String disableCall = SystemProperties.get( TelephonyProperties.PROPERTY_DISABLE_CALL, "false"); ret = (serviceState != ServiceState.STATE_POWER_OFF) && mPendingMO == null && !mRingingCall.isRinging() && !disableCall.equals("true") && (!mForegroundCall.getState().isAlive() || !mBackgroundCall.getState().isAlive()); return ret; } boolean canTransfer() { return (mForegroundCall.getState() == GsmCall.State.ACTIVE || mForegroundCall.getState() == GsmCall.State.ALERTING || mForegroundCall.getState() == GsmCall.State.DIALING) && mBackgroundCall.getState() == GsmCall.State.HOLDING; } //***** Private Instance Methods private void internalClearDisconnected() { mRingingCall.clearDisconnected(); mForegroundCall.clearDisconnected(); mBackgroundCall.clearDisconnected(); } /** * Obtain a message to use for signalling "invoke getCurrentCalls() when * this operation and all other pending operations are complete */ private Message obtainCompleteMessage() { return obtainCompleteMessage(EVENT_OPERATION_COMPLETE); } /** * Obtain a message to use for signalling "invoke getCurrentCalls() when * this operation and all other pending operations are complete */ private Message obtainCompleteMessage(int what) { mPendingOperations++; mLastRelevantPoll = null; mNeedsPoll = true; if (DBG_POLL) log("obtainCompleteMessage: pendingOperations=" + mPendingOperations + ", needsPoll=" + mNeedsPoll); return obtainMessage(what); } private void operationComplete() { mPendingOperations--; if (DBG_POLL) log("operationComplete: pendingOperations=" + mPendingOperations + ", needsPoll=" + mNeedsPoll); if (mPendingOperations == 0 && mNeedsPoll) { mLastRelevantPoll = obtainMessage(EVENT_POLL_CALLS_RESULT); mCi.getCurrentCalls(mLastRelevantPoll); } else if (mPendingOperations < 0) { // this should never happen Rlog.e(LOG_TAG,"GsmCallTracker.pendingOperations < 0"); mPendingOperations = 0; } } private void updatePhoneState() { PhoneConstants.State oldState = mState; if (mRingingCall.isRinging()) { mState = PhoneConstants.State.RINGING; } else if (mPendingMO != null || !(mForegroundCall.isIdle() && mBackgroundCall.isIdle())) { mState = PhoneConstants.State.OFFHOOK; } else { mState = PhoneConstants.State.IDLE; } if (mState == PhoneConstants.State.IDLE && oldState != mState) { mVoiceCallEndedRegistrants.notifyRegistrants( new AsyncResult(null, null, null)); } else if (oldState == PhoneConstants.State.IDLE && oldState != mState) { mVoiceCallStartedRegistrants.notifyRegistrants ( new AsyncResult(null, null, null)); } if (mState != oldState) { mPhone.notifyPhoneStateChanged(); } } @Override protected synchronized void handlePollCalls(AsyncResult ar) { List polledCalls; if (ar.exception == null) { polledCalls = (List)ar.result; } else if (isCommandExceptionRadioNotAvailable(ar.exception)) { // just a dummy empty ArrayList to cause the loop // to hang up all the calls polledCalls = new ArrayList(); } else { // Radio probably wasn't ready--try again in a bit // But don't keep polling if the channel is closed pollCallsAfterDelay(); return; } Connection newRinging = null; //or waiting Connection newUnknown = null; boolean hasNonHangupStateChanged = false; // Any change besides // a dropped connection boolean hasAnyCallDisconnected = false; boolean needsPollDelay = false; boolean unknownConnectionAppeared = false; for (int i = 0, curDC = 0, dcSize = polledCalls.size() ; i < mConnections.length; i++) { GsmConnection conn = mConnections[i]; DriverCall dc = null; // polledCall list is sparse if (curDC < dcSize) { dc = (DriverCall) polledCalls.get(curDC); if (dc.index == i+1) { curDC++; } else { dc = null; } } if (DBG_POLL) log("poll: conn[i=" + i + "]=" + conn+", dc=" + dc); if (conn == null && dc != null) { // Connection appeared in CLCC response that we don't know about if (mPendingMO != null && mPendingMO.compareTo(dc)) { if (DBG_POLL) log("poll: pendingMO=" + mPendingMO); // It's our pending mobile originating call mConnections[i] = mPendingMO; mPendingMO.mIndex = i; mPendingMO.update(dc); mPendingMO = null; // Someone has already asked to hangup this call if (mHangupPendingMO) { mHangupPendingMO = false; try { if (Phone.DEBUG_PHONE) log( "poll: hangupPendingMO, hangup conn " + i); hangup(mConnections[i]); } catch (CallStateException ex) { Rlog.e(LOG_TAG, "unexpected error on hangup"); } // Do not continue processing this poll // Wait for hangup and repoll return; } } else { mConnections[i] = new GsmConnection(mPhone.getContext(), dc, this, i); // it's a ringing call if (mConnections[i].getCall() == mRingingCall) { newRinging = mConnections[i]; } else if (mHandoverConnection != null) { // Single Radio Voice Call Continuity (SRVCC) completed mPhone.migrateFrom((PhoneBase) mPhone.getImsPhone()); mConnections[i].migrateFrom(mHandoverConnection); mPhone.notifyHandoverStateChanged(mConnections[i]); mHandoverConnection = null; } else { // Something strange happened: a call appeared // which is neither a ringing call or one we created. // Either we've crashed and re-attached to an existing // call, or something else (eg, SIM) initiated the call. Rlog.i(LOG_TAG,"Phantom call appeared " + dc); // If it's a connected call, set the connect time so that // it's non-zero. It may not be accurate, but at least // it won't appear as a Missed Call. if (dc.state != DriverCall.State.ALERTING && dc.state != DriverCall.State.DIALING) { mConnections[i].onConnectedInOrOut(); if (dc.state == DriverCall.State.HOLDING) { // We've transitioned into HOLDING mConnections[i].onStartedHolding(); } } newUnknown = mConnections[i]; unknownConnectionAppeared = true; } } hasNonHangupStateChanged = true; } else if (conn != null && dc == null) { // Connection missing in CLCC response that we were // tracking. mDroppedDuringPoll.add(conn); // Dropped connections are removed from the CallTracker // list but kept in the GsmCall list mConnections[i] = null; } else if (conn != null && dc != null && !conn.compareTo(dc)) { // Connection in CLCC response does not match what // we were tracking. Assume dropped call and new call mDroppedDuringPoll.add(conn); mConnections[i] = new GsmConnection (mPhone.getContext(), dc, this, i); if (mConnections[i].getCall() == mRingingCall) { newRinging = mConnections[i]; } // else something strange happened hasNonHangupStateChanged = true; } else if (conn != null && dc != null) { /* implicit conn.compareTo(dc) */ boolean changed; changed = conn.update(dc); hasNonHangupStateChanged = hasNonHangupStateChanged || changed; } if (REPEAT_POLLING) { if (dc != null) { // FIXME with RIL, we should not need this anymore if ((dc.state == DriverCall.State.DIALING /*&& cm.getOption(cm.OPTION_POLL_DIALING)*/) || (dc.state == DriverCall.State.ALERTING /*&& cm.getOption(cm.OPTION_POLL_ALERTING)*/) || (dc.state == DriverCall.State.INCOMING /*&& cm.getOption(cm.OPTION_POLL_INCOMING)*/) || (dc.state == DriverCall.State.WAITING /*&& cm.getOption(cm.OPTION_POLL_WAITING)*/) ) { // Sometimes there's no unsolicited notification // for state transitions needsPollDelay = true; } } } } // This is the first poll after an ATD. // We expect the pending call to appear in the list // If it does not, we land here if (mPendingMO != null) { Rlog.d(LOG_TAG,"Pending MO dropped before poll fg state:" + mForegroundCall.getState()); mDroppedDuringPoll.add(mPendingMO); mPendingMO = null; mHangupPendingMO = false; } if (newRinging != null) { mPhone.notifyNewRingingConnection(newRinging); } // clear the "local hangup" and "missed/rejected call" // cases from the "dropped during poll" list // These cases need no "last call fail" reason for (int i = mDroppedDuringPoll.size() - 1; i >= 0 ; i--) { GsmConnection conn = mDroppedDuringPoll.get(i); if (conn.isIncoming() && conn.getConnectTime() == 0) { // Missed or rejected call int cause; if (conn.mCause == DisconnectCause.LOCAL) { cause = DisconnectCause.INCOMING_REJECTED; } else { cause = DisconnectCause.INCOMING_MISSED; } if (Phone.DEBUG_PHONE) { log("missed/rejected call, conn.cause=" + conn.mCause); log("setting cause to " + cause); } mDroppedDuringPoll.remove(i); hasAnyCallDisconnected |= conn.onDisconnect(cause); } else if (conn.mCause == DisconnectCause.LOCAL || conn.mCause == DisconnectCause.INVALID_NUMBER) { mDroppedDuringPoll.remove(i); hasAnyCallDisconnected |= conn.onDisconnect(conn.mCause); } } // Any non-local disconnects: determine cause if (mDroppedDuringPoll.size() > 0) { mCi.getLastCallFailCause( obtainNoPollCompleteMessage(EVENT_GET_LAST_CALL_FAIL_CAUSE)); } if (needsPollDelay) { pollCallsAfterDelay(); } // Cases when we can no longer keep disconnected Connection's // with their previous calls // 1) the phone has started to ring // 2) A Call/Connection object has changed state... // we may have switched or held or answered (but not hung up) if (newRinging != null || hasNonHangupStateChanged || hasAnyCallDisconnected) { internalClearDisconnected(); } updatePhoneState(); if (unknownConnectionAppeared) { mPhone.notifyUnknownConnection(newUnknown); } if (hasNonHangupStateChanged || newRinging != null || hasAnyCallDisconnected) { mPhone.notifyPreciseCallStateChanged(); } //dumpState(); } private void handleRadioNotAvailable() { // handlePollCalls will clear out its // call list when it gets the CommandException // error result from this pollCallsWhenSafe(); } private void dumpState() { List l; Rlog.i(LOG_TAG,"Phone State:" + mState); Rlog.i(LOG_TAG,"Ringing call: " + mRingingCall.toString()); l = mRingingCall.getConnections(); for (int i = 0, s = l.size(); i < s; i++) { Rlog.i(LOG_TAG,l.get(i).toString()); } Rlog.i(LOG_TAG,"Foreground call: " + mForegroundCall.toString()); l = mForegroundCall.getConnections(); for (int i = 0, s = l.size(); i < s; i++) { Rlog.i(LOG_TAG,l.get(i).toString()); } Rlog.i(LOG_TAG,"Background call: " + mBackgroundCall.toString()); l = mBackgroundCall.getConnections(); for (int i = 0, s = l.size(); i < s; i++) { Rlog.i(LOG_TAG,l.get(i).toString()); } } //***** Called from GsmConnection /*package*/ void hangup (GsmConnection conn) throws CallStateException { if (conn.mOwner != this) { throw new CallStateException ("GsmConnection " + conn + "does not belong to GsmCallTracker " + this); } if (conn == mPendingMO) { // We're hanging up an outgoing call that doesn't have it's // GSM index assigned yet if (Phone.DEBUG_PHONE) log("hangup: set hangupPendingMO to true"); mHangupPendingMO = true; } else { try { mCi.hangupConnection (conn.getGSMIndex(), obtainCompleteMessage()); } catch (CallStateException ex) { // Ignore "connection not found" // Call may have hung up already Rlog.w(LOG_TAG,"GsmCallTracker WARN: hangup() on absent connection " + conn); } } conn.onHangupLocal(); } /*package*/ void separate (GsmConnection conn) throws CallStateException { if (conn.mOwner != this) { throw new CallStateException ("GsmConnection " + conn + "does not belong to GsmCallTracker " + this); } try { mCi.separateConnection (conn.getGSMIndex(), obtainCompleteMessage(EVENT_SEPARATE_RESULT)); } catch (CallStateException ex) { // Ignore "connection not found" // Call may have hung up already Rlog.w(LOG_TAG,"GsmCallTracker WARN: separate() on absent connection " + conn); } } //***** Called from GSMPhone /*package*/ void setMute(boolean mute) { mDesiredMute = mute; mCi.setMute(mDesiredMute, null); } /*package*/ boolean getMute() { return mDesiredMute; } //***** Called from GsmCall /* package */ void hangup (GsmCall call) throws CallStateException { if (call.getConnections().size() == 0) { throw new CallStateException("no connections in call"); } if (call == mRingingCall) { if (Phone.DEBUG_PHONE) log("(ringing) hangup waiting or background"); mCi.hangupWaitingOrBackground(obtainCompleteMessage()); } else if (call == mForegroundCall) { if (call.isDialingOrAlerting()) { if (Phone.DEBUG_PHONE) { log("(foregnd) hangup dialing or alerting..."); } hangup((GsmConnection)(call.getConnections().get(0))); } else if (mRingingCall.isRinging()) { // Do not auto-answer ringing on CHUP, instead just end active calls log("hangup all conns in active/background call, without affecting ringing call"); hangupAllConnections(call); } else { hangupForegroundResumeBackground(); } } else if (call == mBackgroundCall) { if (mRingingCall.isRinging()) { if (Phone.DEBUG_PHONE) { log("hangup all conns in background call"); } hangupAllConnections(call); } else { hangupWaitingOrBackground(); } } else { throw new RuntimeException ("GsmCall " + call + "does not belong to GsmCallTracker " + this); } call.onHangupLocal(); mPhone.notifyPreciseCallStateChanged(); } /* package */ void hangupWaitingOrBackground() { if (Phone.DEBUG_PHONE) log("hangupWaitingOrBackground"); mCi.hangupWaitingOrBackground(obtainCompleteMessage()); } /* package */ void hangupForegroundResumeBackground() { if (Phone.DEBUG_PHONE) log("hangupForegroundResumeBackground"); mCi.hangupForegroundResumeBackground(obtainCompleteMessage()); } void hangupConnectionByIndex(GsmCall call, int index) throws CallStateException { int count = call.mConnections.size(); for (int i = 0; i < count; i++) { GsmConnection cn = (GsmConnection)call.mConnections.get(i); if (cn.getGSMIndex() == index) { mCi.hangupConnection(index, obtainCompleteMessage()); return; } } throw new CallStateException("no gsm index found"); } void hangupAllConnections(GsmCall call) { try { int count = call.mConnections.size(); for (int i = 0; i < count; i++) { GsmConnection cn = (GsmConnection)call.mConnections.get(i); mCi.hangupConnection(cn.getGSMIndex(), obtainCompleteMessage()); } } catch (CallStateException ex) { Rlog.e(LOG_TAG, "hangupConnectionByIndex caught " + ex); } } /* package */ GsmConnection getConnectionByIndex(GsmCall call, int index) throws CallStateException { int count = call.mConnections.size(); for (int i = 0; i < count; i++) { GsmConnection cn = (GsmConnection)call.mConnections.get(i); if (cn.getGSMIndex() == index) { return cn; } } return null; } private Phone.SuppService getFailedService(int what) { switch (what) { case EVENT_SWITCH_RESULT: return Phone.SuppService.SWITCH; case EVENT_CONFERENCE_RESULT: return Phone.SuppService.CONFERENCE; case EVENT_SEPARATE_RESULT: return Phone.SuppService.SEPARATE; case EVENT_ECT_RESULT: return Phone.SuppService.TRANSFER; } return Phone.SuppService.UNKNOWN; } //****** Overridden from Handler @Override public void handleMessage (Message msg) { AsyncResult ar; if (!mPhone.mIsTheCurrentActivePhone) { Rlog.e(LOG_TAG, "Received message " + msg + "[" + msg.what + "] while being destroyed. Ignoring."); return; } switch (msg.what) { case EVENT_POLL_CALLS_RESULT: ar = (AsyncResult)msg.obj; if (msg == mLastRelevantPoll) { if (DBG_POLL) log( "handle EVENT_POLL_CALL_RESULT: set needsPoll=F"); mNeedsPoll = false; mLastRelevantPoll = null; handlePollCalls((AsyncResult)msg.obj); } break; case EVENT_OPERATION_COMPLETE: ar = (AsyncResult)msg.obj; operationComplete(); break; case EVENT_SWITCH_RESULT: case EVENT_CONFERENCE_RESULT: case EVENT_SEPARATE_RESULT: case EVENT_ECT_RESULT: ar = (AsyncResult)msg.obj; if (ar.exception != null) { mPhone.notifySuppServiceFailed(getFailedService(msg.what)); } operationComplete(); break; case EVENT_GET_LAST_CALL_FAIL_CAUSE: int causeCode; ar = (AsyncResult)msg.obj; operationComplete(); if (ar.exception != null) { // An exception occurred...just treat the disconnect // cause as "normal" causeCode = CallFailCause.NORMAL_CLEARING; Rlog.i(LOG_TAG, "Exception during getLastCallFailCause, assuming normal disconnect"); } else { causeCode = ((int[])ar.result)[0]; } // Log the causeCode if its not normal if (causeCode == CallFailCause.NO_CIRCUIT_AVAIL || causeCode == CallFailCause.TEMPORARY_FAILURE || causeCode == CallFailCause.SWITCHING_CONGESTION || causeCode == CallFailCause.CHANNEL_NOT_AVAIL || causeCode == CallFailCause.QOS_NOT_AVAIL || causeCode == CallFailCause.BEARER_NOT_AVAIL || causeCode == CallFailCause.ERROR_UNSPECIFIED) { GsmCellLocation loc = ((GsmCellLocation)mPhone.getCellLocation()); EventLog.writeEvent(EventLogTags.CALL_DROP, causeCode, loc != null ? loc.getCid() : -1, TelephonyManager.getDefault().getNetworkType()); } for (int i = 0, s = mDroppedDuringPoll.size() ; i < s ; i++ ) { GsmConnection conn = mDroppedDuringPoll.get(i); conn.onRemoteDisconnect(causeCode); } updatePhoneState(); mPhone.notifyPreciseCallStateChanged(); mDroppedDuringPoll.clear(); break; case EVENT_REPOLL_AFTER_DELAY: case EVENT_CALL_STATE_CHANGE: pollCallsWhenSafe(); break; case EVENT_RADIO_AVAILABLE: handleRadioAvailable(); break; case EVENT_RADIO_NOT_AVAILABLE: handleRadioNotAvailable(); break; } } @Override protected void log(String msg) { Rlog.d(LOG_TAG, "[GsmCallTracker] " + msg); } @Override public void dump(FileDescriptor fd, PrintWriter pw, String[] args) { pw.println("GsmCallTracker extends:"); super.dump(fd, pw, args); pw.println("mConnections: length=" + mConnections.length); for(int i=0; i < mConnections.length; i++) { pw.printf(" mConnections[%d]=%s\n", i, mConnections[i]); } pw.println(" mVoiceCallEndedRegistrants=" + mVoiceCallEndedRegistrants); pw.println(" mVoiceCallStartedRegistrants=" + mVoiceCallStartedRegistrants); pw.println(" mDroppedDuringPoll: size=" + mDroppedDuringPoll.size()); for(int i = 0; i < mDroppedDuringPoll.size(); i++) { pw.printf( " mDroppedDuringPoll[%d]=%s\n", i, mDroppedDuringPoll.get(i)); } pw.println(" mRingingCall=" + mRingingCall); pw.println(" mForegroundCall=" + mForegroundCall); pw.println(" mBackgroundCall=" + mBackgroundCall); pw.println(" mPendingMO=" + mPendingMO); pw.println(" mHangupPendingMO=" + mHangupPendingMO); pw.println(" mPhone=" + mPhone); pw.println(" mDesiredMute=" + mDesiredMute); pw.println(" mState=" + mState); } }